Arc magmatism (volcanic/plutonic) - University of Washingtoncourses.washington.edu/ess439/ESS 439...
Transcript of Arc magmatism (volcanic/plutonic) - University of Washingtoncourses.washington.edu/ess439/ESS 439...
Arc magmatism (volcanic/plutonic)
Global perspective—regions where new continental crust is generated
•Arcuate/linear chains of volcanoes and/or plutons developed above active subduction zones. Why are the chains arcuate?
•The arc magma paradox. Why is there magmatic activity in regions where cold lithosphericslabs are being subducted into the mantle?
•Three main arc types:Continental Arcs (oceanic lithosphere subducted beneath mature continental lithosphere)Island Arcs I (oceanic lithosphere subducted beneath oceanic lithosphere): Island Arcs II (oceanic crust subducted beneath thinner, commonly immature, continental fragments or peninsulas)
•Examples: Active Continental Arcs: Cascades, Andes, Eastern AleutiamsActive island Arcs I: Marianas, Tonga-Kermadec, Scotia, Western Aleutians…Active island arcs II: Japan, Kamchatka, New Zealand…Inactive Plutonic Arcs: Sierra Nevada, Peninsular Ranges, Idaho batholith,
Coast Range (BC) batholiths, Peruvian batholith…
•Compositionally more diverse, more silicic than MORB, OIB or CFB, more explosive Tholeiitic series (aka low K series): mostly island arcsCalc-alkaline series (aka medium- to high-K series): mostly continental arcsBoth lava series show complete spectrum of rock types from basalt through rhyolite. Most abundant rock type is ANDESITE
Ocean crust Ocean crust → Island Arc (IA)Ocean crust Continental crust → Continental Arc
Principal subduction zones associated with orogenic volcanism and plutonism. Triangles are on the overriding plate. PBS = Papuan-Bismarck-Solomon-New Hebrides arc. After Wilson (1989) Igneous Petrogenesis, Allen Unwin/Kluwer.
Schematic cross sectional view of an Island Arc
After Gill (1981), Orogenic Andesites and Plate Tectonics. Springer-Verlag. HFU= heat flow unit (4.2 x 10-6 joules/cm2/sec)
trench
Volcanic arc
Arc width: 25-250 kmTrench-arc gap:160 ± 60 km
Alkalic, e.g., Granada
Inactive zoneSpacing:60-70 km
Volcanic front
trench—trenchtransform
Depth from arc volcanoes to Benioff-Wadati zone:
• Main arc: 100-120 km• Back arc: up to 200 km• Forearc (rare): <100 km
Summary of tectonic features of magmatic arcs
•Volcanism may migrate inward from trench with time•Volcano spacing averages ~60 - 70 km, as low as 20 km•Low dip and/or low convergence angle: amagmatic arc
Volcanoes behind the main arc: usually more K-richCessation of volcanism ~ 5 Ma after cessation of subduction
Extension axis
Magmatic arc
Trench
Martinez & Taylor 2003
Mariana Island Arc Island arc volcanoes: largely submarine
Remnant arc
Development of remnant arcs and back arc basins
Andesite lava flow on Bagana, Papua New Guinea
Mt. Mayon stratocone
Strombolian eruption at Cerro Negro, Nicaragua, 1968
Block-and-ash flow, Montserrat
Examples of active arc volcanoes
Continental Arc Magmatism
The dip of the subducting slab has an important role in controlling the amount of magmatic activity (if any) in a continental arc. A shallow dipping slab pinches out the asthenosphere in the overlying mantle wedge and also restricts most of the slab dehydration processes to the lithospheric mantle
Winter (2001) An Introduction to Igneous and Metamorphic Petrology. Prentice Hall.
Continental Arc Magmatism
Map of the Juan de Fuca plate-Cascade Arc system, after McBirney and White, (1982) The Cascade Province. In R. S. Thorpe (ed.), Andesites. Orogenic Andesites and Related Rocks. John Wiley & Sons. New York. pp. 115-136. Also shown is the Columbia Embayment (the western margin of pre-Tertiary continental rocks) and approximate locations of the subduction zone as it migrated westward to its present location (after Hughes, 1990, J. Geophys. Res., 95, 19623-19638). Due to sparse age constraints and extensive later volcanic cover, the location of the Columbia Embayment is only approximate (particularly along the southern half).
Reproduced from Winter (2001) An Introduction to Igneous and Metamorphic Petrology. Prentice Hall.
Continental Arc Magmatism
Map of western South America showing the plate tectonic framework, and the distribution of volcanics and crustal types. NVZ, CVZ, and SVZ are the northern, central, and southern volcanic zones. After Thorpe and Francis (1979) Tectonophys., 57, 53-70; Thorpe et al. (1982) In R. S. Thorpe (ed.), (1982). Andesites. Orogenic Andesites and Related Rocks. John Wiley & Sons. New York, pp. 188-205; and Harmon et al. (1984) J. Geol. Soc. London, 141, 803-822.
Reproduced from Winter (2001) An Introduction to Igneous and Metamorphic Petrology. Prentice Hall.
Major plutons of the North American Cordillera, a principal segment of a continuous Mesozoic-Tertiary belt from the Aleutians to Antarctica. After Anderson (1990, preface to The Nature and Origin of Cordilleran Magmatism. Geol. Soc. Amer. Memoir, 174. The Sr 0.706 line in N. America is after Kistler (1990), Miller and Barton (1990) and Armstrong (1988).
Continental arc magmatism
Reproduced from Winter (2001) An Introduction to Igneous and Metamorphic Petrology. Prentice Hall
Continental Arc Magmatism
Major plutons of the South American Cordillera, a principal segment of a continuous Mesozoic-Tertiary belt from the Aleutians to Antarctica. After USGS.
Reproduced from Winter (2001) An Introduction to Igneous and Metamorphic Petrology. Prentice Hall.
Volcanic Rocks of Island Arcs
Note the preponderance of basaltic andesite and andesite in island arcs
Table 16-1. Relative Proportions of Quaternary Volcanic
Locality B B-A A D RTalasea, Papua 9 23 55 9 4Little Sitkin, Aleutians 0 78 4 18 0Mt. Misery, Antilles (lavas) 17 22 49 12 0Ave. Antilles 17 42 39 2Ave. Japan (lava, ash falls) 14 85 2 0After Gill (1981, Table 4.4) B = basalt B-A = basaltic andesiteA = andesite, D = dacite, R = rhyolite
Island Arc Rock Types
Arc Magmatism
From: R. S. Thorpe (ed.), Andesites. Wiley. New York, pp. 25-95 and Winter (2001) An Introduction to Igneous and Metamorphic Petrology. Prentice Hall.
Relative frequency of rock types in the Andes vs. SW Pacific Island arcs. Data from 397 Andean and 1484 SW Pacific analyses in Ewart (1982)
Classification of arc volcanicsThe most useful single discriminator is K2O which Gill used to define 3 sub-series as shown
The three andesite series. Contours represent the concentration of 2500 analyses of andesites.
Andesite: grey, porphyritic rocks with abundant plagioclase + pyroxene phenocrysts (no quartz, sanidine of feldspathoids)
After Gill (1981) Orogenic Andesites and Plate Tectonics. Springer-Verlag.
48 53 63 68
4
3
2
1
High Kshoshonite
Med K
Low K
Island arc tholeiite
BA
DR
57
Large symbols = averages. Differentiation within a series (most likely due to fractional crystallization) is indicated by arrow. Different primary magmas (to the left) are distinguished by vertical variations in K2O at low SiO2.
K2O-SiO2 diagram distinguishing high-K, medium-K and low-K island arc series.
After Gill, 1981, Orogenic Andesites and Plate Tectonics. Springer-Verlag.
Distinction between tholeiitic and calc-alkalic series in island arc lavas
This is also known as a Miyashiro diagram. From: Winter (2001) An Introduction to Igneous and Metamorphic Petrology. Prentice Hall.
AFM diagram is also used to distinguishing tholeiitic and calc-alkaline series.
Arrows represent differentiation trends within a series. Note the FeO enrichment trend in the tholeiitic series relative to the calc-alkalic series.
From: Winter (2001) An Introduction to Igneous and Metamorphic Petrology. Prentice Hall.
Six andesite sub-series
FromGill (1981) Orogenic Andesites and Plate Tectonics. Springer-Verlag.
Low K, medium K and high K series exist in both the tholeiitic and calc-alkalic trends giving a total of six sub-series.
The low-K series is almost exclusively tholeiitic and largely restricted to island arcs, the medium-K series is primarily calc-alkalic while the high-K series is mixed.
Note that the points plotted are based on a fit to the trends in a K2O vs SiO2 plot and a FeO/MgO vs. SiO2 plot. The value on the trends at 57.5 SiO2 is then plotted in this diagram.
Note also that there is a continuum of compositions and the pigeon holes are largely as an aid to communication. It is not uncommon for a series at a single volcano to pass from tholeiitic to calc-alkalic or vice versa.
Volcanic: Basalt Andesite Dacite RhyolitePlutonic: Gabbro Diorite Granodiorite Granite
SiO2 <53 wt% 53-63 63-68 >68%
Plagioclase
Orthoclase
Quartz
Pyroxene
Hornblende
Biotite
Olivine
Total mafic
Total felsics
~50% <10%
~50% >90%
Commonly zoned
~50% ~30% <2%
An70-80An80-90 An20-30
0 ~30
0 ~30
~30
~20% <5%
<10% <5%
Mineral assemblages in arc rocks